This study estimates the risk of stroke within 5 years of newly diagnosed dementia among elderly persons aged 65 and above. We examined the relationship between antipsychotic usage and development of stroke in patients with dementia.
We conducted a nationwide 5-year population-based study using data retrieved from the Longitudinal Health Insurance Database 2005 (LHID2005) in Taiwan. The study cohort comprised 2243 patients with dementia aged ≥65 years who had at least one inpatient service claim or at least 2 ambulatory care claims, whereas the comparison cohort consisted of 6714 randomly selected subjects (3 for every dementia patient) and were matched with the study group according to sex, age, and index year. We further classified dementia patients into 2 groups based on their history of antipsychotic usage. A total of 1450 patients were classified into the antipsychotic usage group and the remaining 793 patients were classified into the non-antipsychotic usage group. Cox proportional-hazards regressions were performed to compute the 5-year stroke-free survival rates after adjusting for potentially confounding factors.
The dementia patients have a 2-fold greater risk of developing stroke within 5 years of diagnosis compared to non-dementia age- and sex-matched subjects, after adjusting for other risk factors (95% confidence interval (CI) = 2.58–3.08; P<.001). Antipsychotic usage among patients with dementia increases risk of stroke 1.17-fold compared to patients without antipsychotic treatment (95% CI = 1.01–1.40; P<.05).
Dementia may be an independent risk factor for stroke, and the use of antipsychotics may further increase the risk of stroke in dementia patients.
Citation: Liu M-E, Tsai S-J, Chang W-C, Hsu C-H, Lu T, et al. (2013) Population-Based 5-Year Follow-Up Study in Taiwan of Dementia and Risk of Stroke. PLoS ONE 8(4): e61771. doi:10.1371/journal.pone.0061771
Editor: Weili Zhang, FuWai hospital, Chinese Academy of Medical Sciences, China
Received: November 27, 2012; Accepted: March 13, 2013; Published: April 23, 2013
Copyright: © 2013 Liu et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Funding: This study was supported by an National Science Council grant 100-2314-B-182-061-MY3, and also by a grant from the Center of Excellence for Clinical Trials and Research in Neuroscience from the Department of Health, Taiwan, DOH101-TD-B-111-003. The funder had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
Competing interests: The authors have declared that no competing interests exist.
The frequency of stroke increases with age. Therefore, these disorders have become major health problems worldwide because the increasing number of elderly and stroke patients contributes to disability in old age . Planning future needs for health services and improved primary and secondary prevention of stroke are critical. Several risk factors such as hypertension, dyslipidemia, obesity, diabetes, and smoking were confirmed to increase the risk of stroke . The relationship between dementia and stroke has attracted significant attention in recent decades. Stroke is known to increase the risk of consequent dementia . However, stroke-free patients with cognitive dysfunction or dementia were suggested to have an increased risk for stroke , . A prior population-based prospective study in Italy showed that the relative risks of stroke for elderly persons with moderate and severe cognitive impairment were 1.2 and 2.2 fold compared to those without cognitive impairment, respectively . In Sweden, elderly patients with dementia had a 2.6-fold greater risk of developing stroke after controlling for potential confounders compared to non-dementia participants . Therefore, dementia is currently considered a major risk factor for the development of stroke. However, evidence concerning the risk of stroke in Taiwanese patients with dementia is scarce.
On the other hand, antipsychotics are frequently and increasingly prescribed for the treatment of behavioral and psychological symptoms associated with dementia . This prescription habit changed since the U.S. Food and Drug Administration added warnings of increases in adverse cerebrovascular events to the prescribing information for atypical antipsychotics in 2003 . Previous studies have shown that the use of antipsychotics increased the probability of stroke in elderly patients , . Conversely, other studies showed that there was no statistical difference in the risk of cerebrovascular events with conventional and atypical antipsychotic usage compared to the non-user group in dementia patients , .
Therefore, this nationwide population study was conducted to estimate the relationship between dementia and the subsequent development of stroke within 5 years of follow-up. We further examined whether the use of antipsychotic medications potentially increases the risk of stroke among dementia patients.
Materials and Methods
Our study used the data obtained through the Longitudinal Health Insurance Database 2005 (LHID2005), from the National Health Insurance Research Database (NHIRD), which is managed by the Taiwanese National Health Research Institutes (NHRI). These claims data included registration and medical claims for 1 000 000 randomly sampled patients from the total number of NHRI enrollees. The data set contained the entire medical claims data of 1 million beneficiaries from 1996 to 2010. The NHRI informs that there were no statistical differences in age and sex between the sampled group and all enrollees. Because the LHID2005 comprises secondary data (that cannot be used to identify patients) released to the public for research purposes, this study was exempt from full review by the Institutional Review Board. To our knowledge, the LHID2005 data set is one of the largest nationwide population-based databases in the world, and numerous scientific studies are published using its data , .
The study cohort consists of dementia patients aged 65 years or above who were newly diagnosed with dementia [ICD-9-Code 290.0 (Senile dementia, uncomplicated), 290.1x (Presenile dementia), 290.2x (Senile dementia with delusional or depressive features), 290.3 (Senile dementia with delirium), 290.4x (Arteriosclerotic dementia), 294.1 (Dementia in conditions classified elsewhere), 331.0 (Alzheimer disease), 331.1 (Pick disease), and 331.2 (Senile degeneration of brain)] between January 2003 and December 2005. Cases were only included if patients obtained ≥2 dementia diagnoses in outpatient visits or 1≥ inpatient service because the diagnostic accuracy of the administrative data set was criticized. Between January 2003 and December 2005, the initial diagnosis date of dementia was assigned as the index date for each patient. Patients with dementia before or after the enrollment period and patients who previously experienced strokes (ICD-9-CM codes 430–438) were excluded.
Our comparison cohort was randomly sampled from the remaining subjects of the LHID2005 data set. Subjects were excluded if they were diagnosed with or had a history of any other dementia disease or stroke. The final comparison cohort was chosen from this representative data set through random selection to match a control-to-case ratio of 3 on the basis of age, sex, and index year. Each subject was followed-up for up to five years. The cohort study censored follow-up only on the following conditions: when the subjects expired, on the dates of outcome incidence (i.e. stroke), or at the end of this cohort. Theoretically, loss of follow up would only occur if the patient refused to seek medical service at all upon having a stroke and still stayed in the insurance system for a long time, which is very unlikely.
Several co-variables such as age, sex, hypertension (ICD-9-CM 401.X-405.X), diabetes mellitus (ICD-9-CM 250.X), and hyperlipidemia (ICD-9-CM 272.X) were adopted in our analytical model to examine the relationship between stroke and particular comorbidities. We defined antipsychotics (N05A) according to the Anatomical Therapeutic Chemical (ATC) Classification System  and classified dementia patients into 2 groups: treated with antipsychotics or no antipsychotic usage. Exposure to antipsychotics was defined as having been prescribed any antipsychotics for at least 1 day during the follow-up period.
Level of Urbanization
The Taiwanese NHRI used cluster analysis to examine urbanization levels. They divided 359 towns in Taiwan into 7 strata, with 1 indicating “most urbanized” and 7 indicating “least urbanized”. The categorization of these urbanization levels into 7 clusters were based on Taiwanese census data from 2000. Nevertheless, few dementia cases were in levels 4, 5, 6 and 7; thus, these 4 levels were combined into a single group. Hence, we have 4 strata in urbanization levels.
All data processing and statistical analyses were performed with the Statistical Package for Social Science (SPSS) software, version 17 (SPSS Inc). Pearson x2 tests were used to compare differences in geographic location, monthly income, and urbanization level of patients’ residences between the study group and comparison group. Stratified Cox proportional-hazards regression analysis (stratified by sex, age group, and index year) was performed to examine the risk of subsequent stroke during the 5-year follow-up period for (1) elderly patients with and without dementia, and (2) dementia patients treated with and without antipsychotics. All patients were followed from the index date until presented with stroke or until the end of the 5-year follow-up period. Hazard ratios (HR) and 95% confidence intervals (CI) were adopted to show the risk of stroke. A two-sided P value <.05 was considered statistically significant.
A total of 2243 patients diagnosed with dementia matched the inclusion criteria; 6714 subjects were included in the comparison cohort. The distributions of sociodemographic characteristics and the comorbid medical disorders for the dementia and comparison groups are shown in Table 1. Dementia patients were more vulnerable to hypertension (P<.001), diabetes (P<.001), and lower monthly income (P<.001), and fewer patients resided in the northern part of Taiwan (P<.001) compared to controls. During the 5-year follow-up period, 811 dementia patients (36.2% of the study cohort) and 1350 non-dementia subjects (20.1% of the comparison cohort) developed stroke. Cox regression analysis showed that the crude HR of stroke was 2.88 times greater for patients with dementia (95% CI = 2.63–3.14) than for the comparison cohort. The HR remained significant after adjusting for potential confounders (adjusted HR 2.82, 95% CI = 2.58–3.08), as shown in Table 2. The numbers of stroke cases for each year during the 5-year period was shown in Table S1. Cox proportional-hazards regression analysis indicated that dementia patients had significantly lower 5-year stroke-free survival rates (P<.001), as shown in Figure 1.
Figure 1. Stroke-free survival rates for patient with dementia and comparison group in Taiwan between 2003 and 2005.doi:10.1371/journal.pone.0061771.g001
Table 1. Demographic Characteristics for the Selected Elders, Stratified by Presence or Absence of Dementia from 2003 to 2005.doi:10.1371/journal.pone.0061771.t001
Table 2. Hazard Ratios (HRs) of Stroke among Dementia Patients during the 5-year Follow-up Period from the Index Ambulatory Visits or Inpatient Care.doi:10.1371/journal.pone.0061771.t002
Dementia patients were divided into 2 groups according to antipsychotic usage for further analysis. A total of 1450 patients had used antipsychotics, and 793 patients had never used antipsychotics. Cox regression model analysis demonstrated that the adjusted HR of stroke was 1.17 times greater for patients with dementia and patients using antipsychotics (95% CI = 1.01–1.40) compared to patients who did not use antipsychotics (Table 3).
The main findings from our study of elderly Taiwanese people may be summarized in the following points: (1) Dementia patients have a more than 2-fold greater risk of developing stroke within 5 years of diagnosis compared to non-dementia age- and sex-matched subjects, after adjusting for other risk factors, and (2) antipsychotic usage increases the risk of stroke in dementia patients.
The association between dementia and stroke originated mainly from community-based studies of people with cognitive dysfunction rather than dementia. A large-scale community- based study in Italy indicated that elevated stroke risk is associated with cognitive impairment . However, cognitive impairment was indicated through a self-administered questionnaire; thus, their results may be different from clinical dementia and confounded by recall bias. Zhu et al  showed a 2- to 3-fold greater risk of developing stroke among community-dwelling persons with dementia over a 3-year follow-up period. Their diagnoses of dementia were made according to the Diagnostic and Statistical Manual of Mental Disorders, 3rd edition-revised (DSM III-R). However, the limited number of persons with dementia at baseline (n = 70) and short duration of the follow-up period may have compromised their findings. This is a nationwide population-based epidemiologic study for examining the relationship between dementia and risk of incident stroke. The strength of this study originates from its nationwide population data set, which included nearly all cases of dementia and stroke in Taiwan during the study period because all practices of psychiatrists and neurologists were covered by the LHID. The large sample size and cohort study design with controls provide considerable statistical power for detecting real and even subtle differences between the 2 cohorts.
Several explanations are plausible for the increased risk of stroke in dementia patients. First, dementia patients have an increased burden of cerebrovascular disease. Several studies have suggested that a significant number of dementia patients suffer from a combination of both degenerative and vascular pathology; thus, a combination of cerebral hypoperfusion, culmination of vascular pathology, and senescence leads to a neuroglial energy crisis, neuronal injury, cognitive impairment, and ultimately, dementia . The cerebrovascular insults may begin numerous years before the manifestation of a clinical stroke. The decline in intellectual level may be correlated with the degree of neurological impairments caused by cerebrovascular insults. Therefore, older people with sufficient deterioration of cognitive function that meet the diagnostic criteria of dementia have a higher probability of suffering an acute stroke.
Second, patients with dementia may be more vulnerable to the complications that are associated with cardiovascular diseases . Furthermore, they may be less likely to recover if affected by these complications compared to non-dementia patients, either because of general frailty, under-diagnosis, under-treatment, and/or noncompliance. Physicians may be hesitant in prescribing several effective drugs such as anticoagulants, even when indicated otherwise because of their potential adverse effects and by regarding that intervention in dementia patients is futile. For example, dementia is generally believed to be a relative contraindication for warfarin treatment in patients with atrial fibrillation . The manner in which physicians behave toward such patients can be affected by the presence of cardiovascular risk factors. Studies have shown that vascular risk factors are treated less often in patients with dementia , , which may increase the susceptibility to stroke in dementia patients.
On the other hand, we identified that stroke risk with antipsychotic usage was higher among dementia patients compared to patients who did not receive antipsychotics. This finding was consistent with previous reports , , and provides strong evidence for supporting the US Food and Drug Administration’s warnings of increased stroke risk in elderly dementia patients with exposure to antipsychotics. A crossover study recently using the data of 14 584 patients with incident stroke from the insurance database in Taiwan showed similar findings, indicating that elderly patients treated with antipsychotics had a 1.6-fold greater risk of stroke than patients without prior antipsychotic use . Potential mechanisms for antipsychotic use-related stroke may include orthostatic hypotension in patients with pre-existing cerebrovascular disease, which may lead to “watershed” strokes and antipsychotic-induced tachycardia, causing unstable hemodynamic conditions , . Furthermore, over-sedation induced by antipsychotic use may result in dehydration and hemoconcentration, which may be potential mechanisms for increased stroke risk . The association of antipsychotics with stroke may be partially explained by their hyperprolactinemia effect, which may promote platelet aggregation , . However, several studies have reported that antipsychotics may inhibit platelet aggregation through serotonin receptor antagonism rather than promote it . Certain observational data have shown that antipsychotics may be associated with an increased risk of venous thromboembolic disease ; arterial thrombosis such as stroke shares few risk factors with venous thrombosis. A clear biological mechanism has not been identified for the antipsychotic use-associated increased risk of stroke.
Our study has several limitations. First, all administrative databases are subject to possible coding errors and under- or over-coding problems. The definitions of dementia and stroke relied solely on the coding of hospital diagnoses, but the accuracy of the diagnosis and coding were not verified. Second, information regarding the degree or stage of dementia was unavailable in this database, and the subtypes of dementia were not considered in the analyses of this study. All of these factors may affect the degree of stroke risk. Third, stroke is a heterogeneous disease that includes large-artery atherosclerosis, cardioembolism, small-artery occlusion, and other subtypes . However, patients were only divided into groups of developed stroke or did not develop stroke; thus, we were unable to examine the associations between dementia and stroke subtypes. Fourth, we did not record the duration of treatment (eg, cumulative days of antipsychotic use after initial diagnosis of dementia) for antipsychotics analysis. Moreover, we did not analyze the risk of stroke by the characteristics of antipsychotic use based on average daily dose, classification of antipsychotics, and grouping of the binding affinity for various neurotransmitters; all of these factors may contribute to stroke susceptibility . Finally, individual information regarding dietary habits, cigarette smoking, and body mass index can contribute to stroke, but were not available in the data set. These limitations may have compromised our findings.
We identified dementia as an independent risk factor for stroke using a large-scale population-based study. The use of antipsychotic agents in dementia patients may increase the risk of stroke. Further studies are required to replicate these findings and examine whether preventing cognition decline or discontinuing antipsychotic usage can modify the risk of stroke in dementia patients.
The number of stroke cases for each year during the 5-year period.
This study is partially based on the National Health Insurance Research Database data provided by the Bureau of National Health Insurance, Department of Health, and managed by the National Health Research Institutes, Taiwan. The results and explanations in this study do not represent the views of the Bureau of National Health Insurance, Department of Health, or National Health Research Institutes.
Conceived and designed the experiments: MEL SJT WCC WPC CHH. Performed the experiments: MEL SJT TL KSH WPC. Analyzed the data: MEL SJT WCC WPC. Contributed reagents/materials/analysis tools: MEL WCC WTC WPC. Wrote the paper: MEL SJT WCC WPC.
- 1. Zhang Y, Chapman AM, Plested M, Jackson D, Purroy F (2012) The Incidence, Prevalence, and Mortality of Stroke in France, Germany, Italy, Spain, the UK, and the US: A Literature Review. Stroke Res Treat 2012: 436125. doi: 10.1155/2012/436125
- 2. Yong H, Foody J, Linong J, Dong Z, Wang Y, et al.. (2012) A Systematic Literature Review of Risk Factors for Stroke in China. Cardiol Rev. In press.
- 3. Sahathevan R, Brodtmann A, Donnan GA (2012) Dementia, stroke, and vascular risk factors; a review. Int J Stroke 7: 61–73. doi: 10.1111/j.1747-4949.2011.00731.x
- 4. Ferrucci L, Guralnik JM, Salive ME, Pahor M, Corti MC, et al. (1996) Cognitive impairment and risk of stroke in the older population. J Am Geriatr Soc 44: 237–241.
- 5. Zhu L, Fratiglioni L, Guo Z, Winblad B, Viitanen M (2000) Incidence of stroke in relation to cognitive function and dementia in the Kungsholmen Project. Neurology 54: 2103–2107. doi: 10.1212/wnl.54.11.2103
- 6. Sink KM, Holden KF, Yaffe K (2005) Pharmacological treatment of neuropsychiatric symptoms of dementia – A review of the evidence. JAMA 293: 596–608. doi: 10.1001/jama.293.5.596
- 7. Valiyeva E, Herrmann N, Rochon PA, Gill SS, Anderson GM (2008) Effect of regulatory warnings on antipsychotic prescription rates among elderly patients with dementia: a population-based time-series analysis. CMAJ 179: 438–446. doi: 10.1503/cmaj.071540
- 8. Percudani M, Barbui C, Fortino I, Tansella M, Petrovich L (2005) Second-generation antipsychotics and risk of cerebrovascular accidents in the elderly. J Clin Psychopharmacol 25: 468–470. doi: 10.1097/01.jcp.0000178414.14685.c4
- 9. Schneider LS, Dagerman K, Philip SI (2006) Efficacy and adverse effects of atypical antipsychotics for dementia: Meta-analysis of randomized, placebo-controlled trials. Am J Geriatr Psychiatry 14: 191–210.
- 10. Barnett MJ, Wehring H, Perry PJ (2007) Comparison of risk of cerebrovascular events in an elderly VA population with dementia between antipsychotic and nonantipsychotic users. J Clin Psychopharmacol 27: 595–601. doi: 10.1097/jcp.0b013e31815a2531
- 11. Chan MC, Chong CS, Wu AY, Wong KC, Dunn EL, et al. (2010) Antipsychotics and risk of cerebrovascular events in treatment of behavioural and psychological symptoms of dementia in Hong Kong: A hospital-based, retrospective, cohort study. Int J Geriatr Psychiatry 25: 362–370. doi: 10.1002/gps.2347
- 12. Kuo RN, Lai MS (2010) Comparison of Rx-defined morbidity groups and diagnosis- based risk adjusters for predicting healthcare costs in Taiwan. BMC Health Serv Res 10: 126. doi: 10.1186/1472-6963-10-126
- 13. Lin HW, Tu YY, Lin SY, Su WJ, Lin WL, et al. (2011) Risk of ovarian cancer in women with pelvic inflammatory disease: a population-based study. Lancet Onco. 12: 900–904. doi: 10.1016/s1470-2045(11)70165-6
- 14. World Health Organization Collaborating Centre for Drug Statistics (2009) Guidelines for ATC Classification and DDD Assignment. Oslo: World Health Organization.
- 15. Fu C, Chute DJ, Farag ES, Garakian J, Cummings JL, et al. (2004) Comorbidity in dementia: An autopsy study. Arch Pathol Lab Med 128: 32–38.
- 16. Brass LM, Krumholz HM, Scinto JM, Radford M (1997) Warfarin use among patients with atrial fibrillation. Stroke 28: 2382–2389. doi: 10.1161/01.str.28.12.2382
- 17. Moroney JT, Tseng CL, Paik MC, Mohr JP, Desmond DW (1999) Treatment for the secondary prevention of stroke in older patients: The influence of dementia status. J Am Geriatr Soc 47: 824–829.
- 18. Rockwood K, Ebly E, Hachinski V, Hogan D (1997) Presence and treatment of vascular risk factors in patients with vascular cognitive impairment. Arch Neurol 54: 33–39. doi: 10.1001/archneur.1997.00550130019010
- 19. Douglas IJ, Smeeth L (2008) Exposure to antipsychotics and risk of stroke: Self controlled case series study. BMJ 337: a1227. doi: 10.1136/bmj.a1227
- 20. Layton D, Harris S, Wilton LV, Shakir SA (2005) Comparison of incidence rates of cerebrovascular accidents and transient ischaemic attacks in observational cohort studies of patients prescribed risperidone, quetiapine or olanzapine in general practice in England including patients with dementia. J Psychopharmacol 19: 473–482. doi: 10.1177/0269881105056524
- 21. Wu CS, Wang SC, Gau SS, Tsai HJ, Cheng YC (2012). Association of Stroke with the Receptor-Binding Profiles of Antipsychotics-A Case-Crossover Study. Biol Psychiatry. In press.
- 22. Herrmann N, Lanctot KL (2005) Do atypical antipsychotics cause stroke? CNS Drugs 19: 91–103. doi: 10.2165/00023210-200519020-00001
- 23. Smith DA, Beier MT (2004) Association between risperidone treatment and cerebrovascular adverse events: examining the evidence and postulating hypotheses for an underlying mechanism. J Am Med Dir Assoc 5: 129–132. doi: 10.1016/s1525-8610(04)70069-9
- 24. Wallaschofski H, Donne M, Eigenthaler M, Hentschel B, Faber R, et al. (2001) PRL as a novel potent cofactor for platelet aggregation. J Clin Endocrinol Metab 2001 86: 5912–5919. doi: 10.1210/jcem.86.12.8085
- 25. Harrison-Woolrych M, Clark DWJ (2004) Nose bleeds associated with use of risperidone. BMJ 328: 1416. doi: 10.1136/bmj.328.7453.1416
- 26. Zornberg GL, Jick H (2000) Antipsychotic drug use and risk of first-time idiopathic venous thromboembolism: a case-control study. Lancet 356: 1219–1223. doi: 10.1016/s0140-6736(00)02784-7
- 27. Kolominsky-Rabas PL, Weber M, Gefeller O, Neundoerfer B, Heuschmann PU (2001) Epidemiology of ischemic stroke subtypes according to TOAST criteria: Incidence, recurrence, and long-term survival in ischemic stroke subtypes: A population-based study. Stroke 32: 2735–2740. doi: 10.1161/hs1201.100209